hierarchical file system

This white paper outlines the advantages of WebSphere Portal for System z software and provides essential information to those considering adding Web-facing workloads on their mainframe hardware. Also, with these WebSphere Portal for System z options, IBM illustrates its ongoing commitment to mainframe computing and underscores the business value that remains inherent in the System z platform. Learn more today!

WebSphere Portal remains IBM's strategic front end for SOA. It enables our clients to closely align their business objectives on standards-based platforms with role-based delivery of composite applications across and beyond their enterprise. At the end of June we delivered a new version of WebSphere Portal Version 6.1. This release significantly improves performance by tapping into the 64-bit capabilities of the IBM System z platform. Click here to learn more!

Improving access to core applications and data is just one of many mandates facing IT, along with improving collaboration, reducing administration costs and improving performance. Fortunately, shops running System z have an advantage. You can integrate and enhance your System z assets faster when you use the version 6.1 update to IBM WebSphere Portal on z/OS. Use it to quickly deploy business applications across the enterprise, reduce costs and increase flexibility with workloads centralized on System z.

A powerful signal integrity analysis tool must be flexibility, easy to use and integrated into an existing EDA framework and design flow. In addition, it is important for the tool to be accurate enough. This report reviews a validation study for the Mentor Graphics HyperLynx 8.0 PI tool to establish confidence in using it for power integrity analysis.

For advanced signaling over high-loss channels, designs today are using equalization and several new measurement methods to evaluate the performance of the link. Both simulation and measurement tools support equalization and the new measurement methods, but correlation of results throughout the design flow is unclear. In this paper a high performance equalizing serial data link is measured and the performance is compared to that predicted by simulation. Then, the differences between simulation and measurements are discussed as well as methods to correlate the two.